import 'dart:async'; import 'dart:convert'; import 'dart:math'; import 'dart:ui' as ui; import 'package:flutter/gestures.dart'; import 'package:flutter/services.dart'; import 'package:flutter/widgets.dart'; import 'package:get/get.dart'; import '../../models/model.dart'; import '../../models/platform_model.dart'; import '../common.dart'; import '../consts.dart'; import './state_model.dart'; /// Mouse button enum. enum MouseButtons { left, right, wheel } const _kMouseEventDown = 'mousedown'; const _kMouseEventUp = 'mouseup'; const _kMouseEventMove = 'mousemove'; extension ToString on MouseButtons { String get value { switch (this) { case MouseButtons.left: return 'left'; case MouseButtons.right: return 'right'; case MouseButtons.wheel: return 'wheel'; } } } class InputModel { final WeakReference parent; String keyboardMode = "legacy"; // keyboard var shift = false; var ctrl = false; var alt = false; var command = false; // trackpad var trackpadScrollDistance = Offset.zero; Timer? _flingTimer; // mouse final isPhysicalMouse = false.obs; int _lastButtons = 0; Offset lastMousePos = Offset.zero; get id => parent.target?.id ?? ""; InputModel(this.parent); KeyEventResult handleRawKeyEvent(FocusNode data, RawKeyEvent e) { bind.sessionGetKeyboardMode(id: id).then((result) { keyboardMode = result.toString(); }); final key = e.logicalKey; if (e is RawKeyDownEvent) { if (!e.repeat) { if (e.isAltPressed && !alt) { alt = true; } else if (e.isControlPressed && !ctrl) { ctrl = true; } else if (e.isShiftPressed && !shift) { shift = true; } else if (e.isMetaPressed && !command) { command = true; } } } if (e is RawKeyUpEvent) { if (key == LogicalKeyboardKey.altLeft || key == LogicalKeyboardKey.altRight) { alt = false; } else if (key == LogicalKeyboardKey.controlLeft || key == LogicalKeyboardKey.controlRight) { ctrl = false; } else if (key == LogicalKeyboardKey.shiftRight || key == LogicalKeyboardKey.shiftLeft) { shift = false; } else if (key == LogicalKeyboardKey.metaLeft || key == LogicalKeyboardKey.metaRight || key == LogicalKeyboardKey.superKey) { command = false; } } if (keyboardMode == 'map') { mapKeyboardMode(e); } else if (keyboardMode == 'translate') { legacyKeyboardMode(e); } else { legacyKeyboardMode(e); } return KeyEventResult.handled; } void mapKeyboardMode(RawKeyEvent e) { int scanCode; int keyCode; bool down; if (e.data is RawKeyEventDataMacOs) { RawKeyEventDataMacOs newData = e.data as RawKeyEventDataMacOs; scanCode = newData.keyCode; keyCode = newData.keyCode; } else if (e.data is RawKeyEventDataWindows) { RawKeyEventDataWindows newData = e.data as RawKeyEventDataWindows; scanCode = newData.scanCode; keyCode = newData.keyCode; } else if (e.data is RawKeyEventDataLinux) { RawKeyEventDataLinux newData = e.data as RawKeyEventDataLinux; scanCode = newData.scanCode; keyCode = newData.keyCode; } else if (e.data is RawKeyEventDataAndroid) { RawKeyEventDataAndroid newData = e.data as RawKeyEventDataAndroid; scanCode = newData.scanCode + 8; keyCode = newData.keyCode; } else { scanCode = -1; keyCode = -1; } if (e is RawKeyDownEvent) { down = true; } else { down = false; } inputRawKey(e.character ?? "", keyCode, scanCode, down); } /// Send raw Key Event void inputRawKey(String name, int keyCode, int scanCode, bool down) { bind.sessionHandleFlutterKeyEvent( id: id, name: name, keycode: keyCode, scancode: scanCode, downOrUp: down); } void legacyKeyboardMode(RawKeyEvent e) { if (e is RawKeyDownEvent) { if (e.repeat) { sendRawKey(e, press: true); } else { sendRawKey(e, down: true); } } if (e is RawKeyUpEvent) { sendRawKey(e); } } void sendRawKey(RawKeyEvent e, {bool? down, bool? press}) { // for maximum compatibility final label = physicalKeyMap[e.physicalKey.usbHidUsage] ?? logicalKeyMap[e.logicalKey.keyId] ?? e.logicalKey.keyLabel; inputKey(label, down: down, press: press ?? false); } /// Send key stroke event. /// [down] indicates the key's state(down or up). /// [press] indicates a click event(down and up). void inputKey(String name, {bool? down, bool? press}) { if (!parent.target!.ffiModel.keyboard()) return; bind.sessionInputKey( id: id, name: name, down: down ?? false, press: press ?? true, alt: alt, ctrl: ctrl, shift: shift, command: command); } Map getEvent(PointerEvent evt, String type) { final Map out = {}; out['x'] = evt.position.dx; out['y'] = evt.position.dy; if (alt) out['alt'] = 'true'; if (shift) out['shift'] = 'true'; if (ctrl) out['ctrl'] = 'true'; if (command) out['command'] = 'true'; // Check update event type and set buttons to be sent. int buttons = _lastButtons; if (type == _kMouseEventMove) { // flutter may emit move event if one button is pressed and anoter button // is pressing or releasing. if (evt.buttons != _lastButtons) { // For simplicity // Just consider 3 - 1 ((Left + Right buttons) - Left button) // Do not consider 2 - 1 (Right button - Left button) // or 6 - 5 ((Right + Mid buttons) - (Left + Mid buttons)) // and so on buttons = evt.buttons - _lastButtons; if (buttons > 0) { type = _kMouseEventDown; } else { type = _kMouseEventUp; buttons = -buttons; } } } else { if (evt.buttons != 0) { buttons = evt.buttons; } } _lastButtons = evt.buttons; out['buttons'] = buttons; out['type'] = type; return out; } /// Send a mouse tap event(down and up). void tap(MouseButtons button) { sendMouse('down', button); sendMouse('up', button); } /// Send scroll event with scroll distance [y]. void scroll(int y) { bind.sessionSendMouse( id: id, msg: json .encode(modify({'id': id, 'type': 'wheel', 'y': y.toString()}))); } /// Reset key modifiers to false, including [shift], [ctrl], [alt] and [command]. void resetModifiers() { shift = ctrl = alt = command = false; } /// Modify the given modifier map [evt] based on current modifier key status. Map modify(Map evt) { if (ctrl) evt['ctrl'] = 'true'; if (shift) evt['shift'] = 'true'; if (alt) evt['alt'] = 'true'; if (command) evt['command'] = 'true'; return evt; } /// Send mouse press event. void sendMouse(String type, MouseButtons button) { if (!parent.target!.ffiModel.keyboard()) return; bind.sessionSendMouse( id: id, msg: json.encode(modify({'type': type, 'buttons': button.value}))); } void enterOrLeave(bool enter) { // Fix status if (!enter) { resetModifiers(); } _flingTimer?.cancel(); bind.sessionEnterOrLeave(id: id, enter: enter); } /// Send mouse movement event with distance in [x] and [y]. void moveMouse(double x, double y) { if (!parent.target!.ffiModel.keyboard()) return; var x2 = x.toInt(); var y2 = y.toInt(); bind.sessionSendMouse( id: id, msg: json.encode(modify({'x': '$x2', 'y': '$y2'}))); } void onPointHoverImage(PointerHoverEvent e) { if (e.kind != ui.PointerDeviceKind.mouse) return; if (!isPhysicalMouse.value) { isPhysicalMouse.value = true; } if (isPhysicalMouse.value) { handleMouse(getEvent(e, _kMouseEventMove)); } } /* int _signOrZero(num x) { if (x == 0) { return 0; } else { return x > 0 ? 1 : -1; } } void onPointerPanZoomStart(PointerPanZoomStartEvent e) {} // https://docs.flutter.dev/release/breaking-changes/trackpad-gestures // TODO(support zoom in/out) void onPointerPanZoomUpdate(PointerPanZoomUpdateEvent e) { var delta = e.panDelta; trackpadScrollDistance += delta; bind.sessionSendMouse( id: id, msg: '{"type": "trackpad", "x": "${delta.dx.toInt()}", "y": "${delta.dy.toInt()}"}'); } // Simple simulation for fling. void _scheduleFling(var x, y, dx, dy) { if (dx <= 0 && dy <= 0) { return; } _flingTimer = Timer(Duration(milliseconds: 10), () { bind.sessionSendMouse( id: id, msg: '{"type": "trackpad", "x": "$x", "y": "$y"}'); dx--; dy--; if (dx == 0) { x = 0; } if (dy == 0) { y = 0; } _scheduleFling(x, y, dx, dy); }); } void onPointerPanZoomEnd(PointerPanZoomEndEvent e) { var x = _signOrZero(trackpadScrollDistance.dx); var y = _signOrZero(trackpadScrollDistance.dy); var dx = trackpadScrollDistance.dx.abs() ~/ 40; var dy = trackpadScrollDistance.dy.abs() ~/ 40; _scheduleFling(x, y, dx, dy); trackpadScrollDistance = Offset.zero; } */ void onPointDownImage(PointerDownEvent e) { debugPrint("onPointDownImage"); if (e.kind != ui.PointerDeviceKind.mouse) { if (isPhysicalMouse.value) { isPhysicalMouse.value = false; } } if (isPhysicalMouse.value) { handleMouse(getEvent(e, _kMouseEventDown)); } } void onPointUpImage(PointerUpEvent e) { if (e.kind != ui.PointerDeviceKind.mouse) return; if (isPhysicalMouse.value) { handleMouse(getEvent(e, _kMouseEventUp)); } } void onPointMoveImage(PointerMoveEvent e) { if (e.kind != ui.PointerDeviceKind.mouse) return; if (isPhysicalMouse.value) { handleMouse(getEvent(e, _kMouseEventMove)); } } void onPointerSignalImage(PointerSignalEvent e) { if (e is PointerScrollEvent) { var dx = e.scrollDelta.dx.toInt(); var dy = e.scrollDelta.dy.toInt(); if (dx > 0) { dx = -1; } else if (dx < 0) { dx = 1; } if (dy > 0) { dy = -1; } else if (dy < 0) { dy = 1; } bind.sessionSendMouse( id: id, msg: '{"type": "wheel", "x": "$dx", "y": "$dy"}'); } } void handleMouse(Map evt) { double x = evt['x']; double y = max(0.0, evt['y']); final cursorModel = parent.target!.cursorModel; if (cursorModel.isPeerControlProtected) { lastMousePos = ui.Offset(x, y); return; } if (!cursorModel.gotMouseControl) { bool selfGetControl = (x - lastMousePos.dx).abs() > kMouseControlDistance || (y - lastMousePos.dy).abs() > kMouseControlDistance; if (selfGetControl) { cursorModel.gotMouseControl = true; } else { lastMousePos = ui.Offset(x, y); return; } } lastMousePos = ui.Offset(x, y); var type = ''; var isMove = false; switch (evt['type']) { case _kMouseEventDown: type = 'down'; break; case _kMouseEventUp: type = 'up'; break; case _kMouseEventMove: isMove = true; break; default: return; } evt['type'] = type; if (isDesktop) { y = y - stateGlobal.tabBarHeight; } final canvasModel = parent.target!.canvasModel; final ffiModel = parent.target!.ffiModel; if (isMove) { canvasModel.moveDesktopMouse(x, y); } final d = ffiModel.display; if (canvasModel.scrollStyle == ScrollStyle.scrollbar) { final imageWidth = d.width * canvasModel.scale; final imageHeight = d.height * canvasModel.scale; x += imageWidth * canvasModel.scrollX; y += imageHeight * canvasModel.scrollY; // boxed size is a center widget if (canvasModel.size.width > imageWidth) { x -= ((canvasModel.size.width - imageWidth) / 2); } if (canvasModel.size.height > imageHeight) { y -= ((canvasModel.size.height - imageHeight) / 2); } } else { x -= canvasModel.x; y -= canvasModel.y; } x /= canvasModel.scale; y /= canvasModel.scale; x += d.x; y += d.y; if (type != '') { x = 0; y = 0; } evt['x'] = '${x.round()}'; evt['y'] = '${y.round()}'; var buttons = ''; switch (evt['buttons']) { case kPrimaryMouseButton: buttons = 'left'; break; case kSecondaryMouseButton: buttons = 'right'; break; case kMiddleMouseButton: buttons = 'wheel'; break; case kBackMouseButton: buttons = 'back'; break; case kForwardMouseButton: buttons = 'forward'; break; } evt['buttons'] = buttons; bind.sessionSendMouse(id: id, msg: json.encode(evt)); } /// Web only void listenToMouse(bool yesOrNo) { if (yesOrNo) { platformFFI.startDesktopWebListener(); } else { platformFFI.stopDesktopWebListener(); } } }